DE3004003C2 - Process for the extraction of crude oil from oil sands - Google Patents

Description

The decrease in world supplies of petroleum and the increasing need for energy for supplying the increasing world population require the expansion of this raw material base by improving the Extraction technology. As is well known, hydrocarbon sources include petroleum, which is from underground deposits is extracted, nor the crude oils, which in oil sands in surface or underground Storage, for example in Canada and Venezuela, are included and obtained.

Such oil sands contain sand and clays as main components in a mixture with highly viscous crude oils and bitumen. After removing the overburden, the deposits that can be reached from the surface become the Oil sands are excavated and treated with hot water in large separation tanks. Thereby foaming occurs of the crude oil, while the solids contained in the mixture are separated by gravity collect at the bottom of the tank. The crude oil withdrawn from the separation tanks is made by distillation separated into light and heavy fractions. The light fraction must mostly by hydrogenation with Hydrogen can be enriched in order to convert this crude oil fraction into a product similar to petroleum obtain.

With this method of operation, the separation of the crude oil and in particular its bituminous constituents from the clays does not succeed completely, so that the solid fraction separated from the foamed crude oil is a sand-containing clay-oil-bitumen silt, which has been deposited in basins up to now. To improve the separating effect when treating oil sands with hot water at a temperature of 80 ^° C., alkalis can be added to the water. This reduces the hydrophobic reactions between the constituents of the bitumen and the clay. Rather, the alkalis form surface-active salts with the acids contained in the bitumen, which facilitate the separation of the bitumen from the solids of the oil sand. However, the same type of compounds appear to contribute to the formation of reactive clay slurries. Organic solvents, such as gasoline or kerosene, have therefore also been used in the hot water treatment of tar sands in order to reduce the viscosity of the bitumen.

Finally, it has been recommended to use surface-active substances such as soaps or non-ionic wetting agents to be added to the hot water together with alkalis or alone.

Not for the development of opencast mines

b5 accessible oil sands deposits it is from "Oil Sands" (1977), pages 584 to 592, further known to press steam into the deposit until the highly viscous Crude oil of low mobility due to warming in a

Crude oil of lower viscosity and good flowability has been transferred. To this end, is forced into the respective reservoir via injection wells hot water at temperatures of 150-260 ⁰ C or steam with temperatures up to 315 ° C.

The crude oil production by heating the oil sands deposit can be done in the way of so-called cyclic Steam stimulation take place in such a way that via a bore for a certain period of time, for example steam is injected into the oil sands deposit for a month. Subsequently, the same The borehole is funded until the oil sand deposit in the vicinity of the borehole has cooled down enough that the crude oil no longer flows. This procedure can be repeated alternately until no more crude oil is extracted from the oil sand deposit can be.

According to another known method, the conveying can be heated by the injected steam Crude oil from the underground oil sand deposits can also be carried out through production wells, which in addition to the Injection wells have been drilled in this oil sands deposit. Here it has proven useful first of all, one-surface joint connections between the injection well and the production well (s) by a previous hydraulic frac or by introducing steam under so high pressure that this causes the formation of fissures. In the latter case, caustic soda can also be used together with the steam and surfactants are injected into the oil sands reservoir to remove the crude oil in the To emulsify steam condensate and thus make it more flowable. The de-oiling of the deposits is after this method is still unsatisfactory.

In a publication by the Canadian Institute of Mining and Metallurgy (CIM) in "CIM Special Vol." 17 (1977), pages 705 to 710, is about a scientific Investigation of bitumen extraction from so-called tar sands with the help of microbiological surfactants reported. As a result of these investigations, it is found that the Surface-active substances produced by a microorganism of the species Corynebacterium have been, with a view to the separation of bitumen from sand and clay, on the flotation of the separated bitumen as well as the purity of the sand remaining as residue, are very effective. The measure of the effect is the concentration of the bitumen in the lumps contained in the residue made of bitumen and sand. The higher the concentration of bitumen in these lumps, the more sand has been washed out of it in its pure form. If with hot water treatment Without the addition of a wetting agent, the bitumen concentration is 12% by weight, so it increases with the addition of 0.01 % By weight of a culture broth of the corynebacterium in kerosene to 30.7% by weight, while others are synthetic Surfactants at a concentration of 0.02% by weight only increase the bitumen concentration effect of 283 wt .-%. Of the surface-active substances contained in the culture broth of the Corynebacterium Substance is only known to be a lipid The contaminated surfactant At a concentration of 150 mg / 1, it reduces the surface tension of the water by 72.05 dynes / cm to only 51.4 dynes / cm.

DE-OS 28 05 823 proposes a process for the production of petroleum by flooding petroleum deposits with dispersions of non-ionic, surface-active substances in water. After this In the first stage of the process, glycolipids of certain structures are used with hydrocarbons Microorganisms generated under aerobic conditions. These become one in the second stage Temperature, pH or osmotic shock separated from the cell mass and the aqueous phase with the Glycolipids dispersed therein are used directly as flood agents or added to or through the flood water Extraction separated from the cell mass and added to the flood water.

The invention is based on this prior art and has the task of providing this raw material base expand and use glycolipids also for the extraction of "crude oil" from oil sands, whereby these "Crude oils" are not identical to crude oil from oil deposits, but rather more viscous in comparison with petroleum and are poorer in hydrogen.

The invention relates to a method for extracting crude oil from oil sands by means of hot water and glycolipids as nonionic surfactants and separation of the crude oil from the

• to obtained crude oil-water-solids mixtures. Thereafter, trehalose lipid in the form of a dispersion in water or a solution in organic and water-miscible solvents is added to the water at a temperature of below 90 ^° C. and this

Mixture mixed with the oil sand, whereupon the crude oil-water mixture is separated from this mixture.

The for the implementation of the procedure of

Trehalose lipids to be used in the invention can be produced by the process described in DE-OS 28 05 823 is described.

For the process of the invention, trehalose lipids of the general formula have been found

HO

- CH- 30 04 003 formula 5 CH ₂ OH
I. wherein R is a radical of the general (CH,) " CH- (CH ₂ ), - CH ₃ O
Ν CH ₃ Il
-CH ₂ -OC = 18 to; - CH-
I. U or a radical of the general formula I.
CH ₂
I. OH with m = 8 to 10 and /; (CH ₂ ), CH- (CH ₂ ), - CH = CH- (CH ₂ ) - CH ₃ O
H CH ₃ Il
-CH ₂ -OC = 7 to 12 with Jf = 8 to 10 and ν -

proven These trehalose lipids reduce the surface tension in a concentration of 100 mg / 1 of the water to 28 dyn / cm. The interfacial tension of such a trehalose lipid-water mixture against Crude oil is between 0.1 and 3.7 dynes / cm.

When using the method of the invention for That will be the extraction of crude oil from oil sands deposits that cannot be developed in open-cast mining Mixture of trehalose lipid and water (preferably hot water) through at least one injection hole in the underground deposit containing oil sands pressed in and through at least one to the same Deposit leading production well produced the crude oil-water mixture.

Here it can be advantageous to use hydraulic action beforehand in a manner known per se Establish a gap connection between the injection bores and the production bores and, if necessary preheat the deposit.

The method of the invention is intended to be used for the extraction of crude oil from oil sands mining it has proven advantageous to use the mixture of oil sand, trehalose lipid and water, preferably Hot water, to be stirred intensively to a thin paste, from which the subsequent slow Stirring or leaving to stand, a crude oil-water mixture foams, which is separated off. The here settling and largely separated solids from the liquid phase, consisting of sand, clay and Bitumen oil lumps exist or the bitumen oil lumps isolated from them are then advantageous again mixed with a mixture of trehalose lipid and water and at one temperature for some time Maintained up to 90 ° C, and then the floating crude oil-water mixture is separated. In many cases it has proven to be advantageous that the solid mixture made into a paste again with trehalose lipid and water is diluted with another amount of trehalose lipid-water mixture before the resulting Mixture, the crude oil-water mixture is separated.

The bitumen oil lumps can be removed from the solid

3 «residues advantageous in the way of gravity separation or flotation separation due to different Density to be separated from sand and clay.

After separating the floating crude oil-water mixture and the solids content from the

j-> thin-bodied pulp, made by stirring the mixture from trehalose lipid and water, preferably hot water, and the oil sand or the already once extracted residue is formed, an aqueous phase remains, which is advantageous, if necessary after previous Heat up again to mix with trehalose lipid dispersion or solution or to treat a further amount of oil sand can be used.

For a quicker separation of the crude oil-water mixture in its components it can be advantageous

4) to add oil splitters to this mixture, as such and are known for their effect.

Finally, the foaming of the crude oil can be made from the mixture of the oil sand with the mixture Trehalose lipid and water flotatively by introducing

■ ίο air can be advantageously accelerated.

Instead of the separated from the mixture of the oil sand with the mixture of trehalose lipid and water Solid mixture or together with this can for the according to the embodiment described above the method of the invention a sludge of sand, clay and lumps of bitumen oil are used, the oil sands obtained in the well-known hot water extraction of mined oil sands f> ls have so far been unusable Residue accumulates and deposited in the basin

w) must be.

The trehalose lipid to be used according to the invention is advantageously used in an amount of 0.1 to 1.0 g / l in the Water dispersed. A corresponding amount of culture filtrate can also be obtained from the production of the

b ^r > Trehalose lipids are used. The trehalose lipid can also be dissolved in an organic solvent, which is advantageously miscible with water, mixed with the water. For dispersing the trehalo

selipids in the water, the mixture of these components must be thoroughly mixed, which for example can be effected by ultrasound treatment. Water containing this trehalose lipid is then mixed with oil sand in a weight ratio of 3: 2 and advantageously to a temperature of below 90 ° C, preferably 65 to 75 ° C, heated. After this mixture is on for about 2 hours Heating set temperature has been maintained, the floating oil phase, which is also still Contains water, drawn off from the remaining residual mixture and fed to further work-up. The solids settled at the bottom in the remaining aqueous phase by means of gravity separation likewise separated from the aqueous phase as largely as technically possible. The aqueous phase is then either for the preparation of the trehalose lipid-water mixture or for the treatment according to the invention another amount of oil sand used. The solid mixture largely freed from the aqueous phase further crude oil is withdrawn by the measures described above. That included The sand-clay-bitumen mixture remaining as residue is practically free of crude oil.

According to the method of the invention, it is possible to achieve a practically complete separation of the crude oil To achieve oil sands, through the use of a surfactant including the bitumen portion of special structure in only low concentration, with the surfactant-containing aqueous phase several times can be recycled.

example 1
(Comparison)

10 parts by weight of a clayey oil sand with a content of 9.1% by weight of bituminous crude oil vigorously stirred with 15 parts by weight of water in a vessel of appropriate size and then under slow stirring for a period of 2 hours at a temperature of 75 ° C. After a short Idle time, 0.034 parts by weight of crude oil float on the aqueous phase and are drawn off. the The majority of the crude oil remains in the clayey oil sands that settle on the ground.

Example 2
(Comparison)

10 parts by weight of a clay-containing oil sand with a content of 9.1% by weight of bituminous crude oil with 15 parts by weight of an aqueous solution or emulsion mentioned in the table below Thoroughly mixed surfactants. Both components are used to dissolve or emulsify these surfactants in water mixed and these mixtures at a temperature of 20 ° C for a period of 5 min Treated with ultrasound

The intensive mixing of the oil sand with the aqueous surfactant solution or emulsion is under slow stirring for 2 hours at a temperature of 75 ° C. Swim after resting for a short time the specified amounts of crude oil on the aqueous phase and are withdrawn. It remains in any case there are still considerable amounts of crude oil in the clayey sand that is sinking to the bottom.

Try surfactant Conc Released No. tration of the crude oil Surfactants in M ₃ O mg / 1 Uew.-parts

21 Surfactant 1 22nd Surfactant 2 23 Surfactant 3 24 Surfactant 3 25th Surfactant 4 26th Surfactant 4

500
500
500

5000
500

5000

0.043
0.031
0.062
0.090
0.052
0.082

Surfactant 1 = Olsüureälhoxylat
Surfactant 2 = polyoxyethylene

Surfactant 3 = sucrose-I-ettsaureester with 50 "/» mono- and 50%, IDi- and triester

Surfactant 4 - sucrose-fatty acid ester with 70% mono- and 30% di- and tri-esters.

Example 3

10 parts by weight of the clay-containing oil sand according to Example 1 are mixed with 15 parts by weight of an aqueous Dispersion of trehalose lipid obtained by ultrasound treatment as described in Example 2 is, intensively mixed and this mixture with slow stirring for two hours at one temperature kept at 75 ° C. After a short rest period, the one in the table will float out of the mixture indicated amount of crude oil, which is withdrawn from the aqueous phase.

Attempt no. Concentration of Released Trehalose lipids in IlyO Crude oil in mg / 1 Parts by weight 31 266.7 0.207 32 500 0.276 33 620 0.386

Example 4

From the one remaining in Verusch No. 33 (Example 3) after removing the floated crude oil The remainder of the mixture is separated off, the solid fractions that have settled and the remaining aqueous phase mixed intensively with 10 parts by weight of oil sand. The mixture is allowed to increase for 2 hours with slow stirring held at a temperature of 75 ° C. After a short period of rest, 0.32 parts by weight float out of the mixture Crude oil to be withdrawn.

Example 5

From the remainder of the mixture remaining after the crude oil has been drawn off in Example 4, those with the Solids settling lumps of bitumen oil isolated and treated with 5 parts by weight of an aqueous dispersion of 600 mg / 1 trehalose lipid mixed intensively. The mixture is then stirred slowly for 2 hours kept at a temperature of 89 ° C. After short Rest time 0.135 parts by weight of crude oil float on the aqueous phase and are drawn off.

Claims (9)

Patent claims: 1. A method for obtaining crude oil from oil sands by means of water and glycolipids as nonionic, surface-active substances and separation of the crude oil from the resulting crude oil-water-solid mixtures, characterized in that trehalose lipids in the form of a dispersion or solution in organic and ι ο with Water-miscible solvents are added to the water at a temperature below 90 ^° C. and this mixture is mixed with the oil sand, whereupon the crude oil-water mixture is separated off from this mixture. 2. The method according to claim 1, characterized in that the mixture of trehalose lipid and water is injected via at least one injection hole into an underground deposit containing oil sands and the crude oil-water mixture is promoted through at least one production hole leading to the same -0 deposit. 3. The method according to claim 1, characterized in that that the mixture of trehalose lipid and water with oil sands can be extracted over the course of the day a thin paste is intensively stirred, from which the subsequent slow stirring or Leaving a crude oil-water mixture to foam, which is separated off. 4. The method according to claim 3, characterized in that the largely settled and separated solids from the liquid phase, which consist of sand, clay and bitumen oil lumps or the bitumen oil lumps isolated therefrom, are again mixed with a mixture of trehalose lipid and water and for some time be kept at a temperature of up to 90 ⁰ C and then the crude oil-water mixture is separated. 5. The method according to claims 3 to 4, characterized in that the again with trehalose lipid and water mixed solid mixture with a further amount of trehalose lipid-water mixture is diluted before the crude oil-water mixture is separated from the resulting mixture. 6. The method according to claims 3 to 5, characterized in that that of the solids content separated aqueous phase as water again for mixing with trehalose lipid dispersion or -Solution or to treat a further amount of oil sand is used. 7. Process according to claims 1 to 5, characterized in that the crude oil-water mixture Oil splitters are added. 8. Process according to Claims 1 to 5, characterized in that the addition of the dispersion or the trehalose lipid is dissolved in the water in one or more stages, directly or in shunt. 9. The method according to claims 1 to 7, characterized in that the foaming and the Separation of the crude oil from the crude oil-water mixture is accelerated by flotation by the introduction of air will.